Oxidative carbonilation of liver tissue proteins under the influence of pesticide based on glyphosate in a subchronic experiment

. Currently, the pathogenetic mechanisms of the action on the body of widely used glyphosate-based herbicides and the search for the markers of the health status that changes under the influence of these herbicides remain open for study and discussion. Carbonyl derivatives of proteins can be used as the markers of oxidative stress caused by the herbicidal composition of the isopropylamine salt of glyphosate. The purpose of this study was to assess the severity of oxidative carbonylation of liver tissue proteins under the influence of a glyphosate-based pesticide in a subchronic experiment. Material and methods. The material for the study was subcellular fractions of liver tissue homogenates obtained from 90 Wistar rats, which were administered solutions of glyphosate isopropylamine salt at doses of 280 mg/kg and 100 mg/kg per os for 3 months. The severity of oxidative carbonylation of proteins was determined by the method of R.L. Levine modified by E.E. Dubinina. Results. Statistically significant changes in the content of products of oxidative damage to proteins at various stages of the experiment in the study groups were obtained compared with the control group due to a significant increase in the products of oxidative damage to proteins in subcellular fractions of liver tissue. Conclusion. The changes in carbonyl stress indices and the decrease in the reserve-adaptive potential indicate the depletion of antioxidant protection in the liver cells. A statistically significant increase in secondary markers of carbonyl stress after 1 month from the start of seeding of animals compared with the control with a slight increase in this index after 3 months may indicate the launch of adaptation mechanisms, including the induction of proteolytic utilization of oxidized proteins or additional protein synthesis.